Achieving Multi-Port Memory Performance on Single-Port Memory with Coding Techniques

📝 Original Info

• Title: Achieving Multi-Port Memory Performance on Single-Port Memory with Coding Techniques
• ArXiv ID: 2001.09599
• Date: 2020-01-28
• Authors: Hardik Jain, Matthew Edwards, Ethan Elenberg, Ankit Singh Rawat, Sriram Vishwanath

📝 Abstract

Many performance critical systems today must rely on performance enhancements, such as multi-port memories, to keep up with the increasing demand of memory-access capacity. However, the large area footprints and complexity of existing multi-port memory designs limit their applicability. This paper explores a coding theoretic framework to address this problem. In particular, this paper introduces a framework to encode data across multiple single-port memory banks in order to {\em algorithmically} realize the functionality of multi-port memory. This paper proposes three code designs with significantly less storage overhead compared to the existing replication based emulations of multi-port memories. To further improve performance, we also demonstrate a memory controller design that utilizes redundancy across coded memory banks to more efficiently schedule read and write requests sent across multiple cores. Furthermore, guided by DRAM traces, the paper explores {\em dynamic coding} techniques to improve the efficiency of the coding based memory design. We then show significant performance improvements in critical word read and write latency in the proposed coded-memory design when compared to a traditional uncoded-memory design.

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